gotosocial/vendor/codeberg.org/gruf/go-logger/format_text.go

883 lines
19 KiB
Go
Raw Normal View History

2021-11-27 15:26:58 +01:00
package logger
import (
stdfmt "fmt"
"reflect"
"strconv"
"time"
"unsafe"
"codeberg.org/gruf/go-bytes"
)
// DefaultTextFormat is the default TextFormat instance
var DefaultTextFormat = TextFormat{
Strict: false,
Verbose: false,
MaxDepth: 10,
Levels: DefaultLevels(),
2021-11-27 15:26:58 +01:00
}
// TextFormat is the default LogFormat implementation, with very similar formatting to the
// standard "fmt" package's '%#v' operator. The main difference being that pointers are
// dereferenced as far as possible in order to reach a printable value. It is also *mildly* faster.
2021-11-27 15:26:58 +01:00
type TextFormat struct {
// Strict defines whether to use strict key-value pair formatting, i.e. should the level
// timestamp and msg be formatted as key-value pairs (with forced quoting for msg)
Strict bool
// Verbose defines whether to increase output verbosity, i.e. include types with nil values
// and force values implementing .String() / .AppendFormat() to be printed as a struct etc.
Verbose bool
2021-11-27 15:26:58 +01:00
// MaxDepth specifies the max depth of fields the formatter will iterate
MaxDepth uint8
// Levels defines the map of log LEVELs to level strings
Levels Levels
}
// fmt returns a new format instance based on receiver TextFormat and given buffer
func (f TextFormat) fmt(buf *bytes.Buffer) format {
var flags uint8
if f.Verbose {
flags |= vboseBit
}
2021-11-27 15:26:58 +01:00
return format{
flags: flags,
depth: uint16(f.MaxDepth) << 8,
2021-11-27 15:26:58 +01:00
buf: buf,
}
}
func (f TextFormat) AppendKey(buf *bytes.Buffer, key string) {
if len(key) > 0 {
// only append if key is non-zero length
appendString(f.fmt(buf).SetIsKey(true), key)
buf.WriteByte('=')
}
}
2021-11-27 15:26:58 +01:00
func (f TextFormat) AppendLevel(buf *bytes.Buffer, lvl LEVEL) {
if f.Strict {
// Strict format, append level key
buf.WriteString(`level=`)
buf.WriteString(f.Levels.Get(lvl))
2021-11-27 15:26:58 +01:00
return
}
// Write level string
buf.WriteByte('[')
buf.WriteString(f.Levels.Get(lvl))
2021-11-27 15:26:58 +01:00
buf.WriteByte(']')
}
func (f TextFormat) AppendTimestamp(buf *bytes.Buffer, now string) {
if f.Strict {
// Strict format, use key and quote
buf.WriteString(`time=`)
appendString(f.fmt(buf), now)
return
}
// Write time as-is
buf.WriteString(now)
}
func (f TextFormat) AppendValue(buf *bytes.Buffer, value interface{}) {
appendIfaceOrRValue(f.fmt(buf).SetIsKey(false), value)
2021-11-27 15:26:58 +01:00
}
func (f TextFormat) AppendByte(buf *bytes.Buffer, value byte) {
2021-11-27 15:26:58 +01:00
appendByte(f.fmt(buf), value)
}
func (f TextFormat) AppendBytes(buf *bytes.Buffer, value []byte) {
2021-11-27 15:26:58 +01:00
appendBytes(f.fmt(buf), value)
}
func (f TextFormat) AppendString(buf *bytes.Buffer, value string) {
2021-11-27 15:26:58 +01:00
appendString(f.fmt(buf), value)
}
func (f TextFormat) AppendStrings(buf *bytes.Buffer, value []string) {
2021-11-27 15:26:58 +01:00
appendStringSlice(f.fmt(buf), value)
}
func (f TextFormat) AppendBool(buf *bytes.Buffer, value bool) {
2021-11-27 15:26:58 +01:00
appendBool(f.fmt(buf), value)
}
func (f TextFormat) AppendBools(buf *bytes.Buffer, value []bool) {
2021-11-27 15:26:58 +01:00
appendBoolSlice(f.fmt(buf), value)
}
func (f TextFormat) AppendInt(buf *bytes.Buffer, value int) {
2021-11-27 15:26:58 +01:00
appendInt(f.fmt(buf), int64(value))
}
func (f TextFormat) AppendInts(buf *bytes.Buffer, value []int) {
2021-11-27 15:26:58 +01:00
appendIntSlice(f.fmt(buf), value)
}
func (f TextFormat) AppendUint(buf *bytes.Buffer, value uint) {
2021-11-27 15:26:58 +01:00
appendUint(f.fmt(buf), uint64(value))
}
func (f TextFormat) AppendUints(buf *bytes.Buffer, value []uint) {
2021-11-27 15:26:58 +01:00
appendUintSlice(f.fmt(buf), value)
}
func (f TextFormat) AppendFloat(buf *bytes.Buffer, value float64) {
2021-11-27 15:26:58 +01:00
appendFloat(f.fmt(buf), value)
}
func (f TextFormat) AppendFloats(buf *bytes.Buffer, value []float64) {
2021-11-27 15:26:58 +01:00
appendFloatSlice(f.fmt(buf), value)
}
func (f TextFormat) AppendTime(buf *bytes.Buffer, value time.Time) {
2021-11-27 15:26:58 +01:00
appendTime(f.fmt(buf), value)
}
func (f TextFormat) AppendTimes(buf *bytes.Buffer, value []time.Time) {
2021-11-27 15:26:58 +01:00
appendTimeSlice(f.fmt(buf), value)
}
func (f TextFormat) AppendDuration(buf *bytes.Buffer, value time.Duration) {
2021-11-27 15:26:58 +01:00
appendDuration(f.fmt(buf), value)
}
func (f TextFormat) AppendDurations(buf *bytes.Buffer, value []time.Duration) {
2021-11-27 15:26:58 +01:00
appendDurationSlice(f.fmt(buf), value)
}
func (f TextFormat) AppendMsg(buf *bytes.Buffer, a ...interface{}) {
if f.Strict {
// Strict format, use key and quote
buf.WriteString(`msg=`)
buf.B = strconv.AppendQuote(buf.B, stdfmt.Sprint(a...))
return
}
// Write message as-is
stdfmt.Fprint(buf, a...)
}
func (f TextFormat) AppendMsgf(buf *bytes.Buffer, s string, a ...interface{}) {
if f.Strict {
// Strict format, use key and quote
buf.WriteString(`msg=`)
buf.B = strconv.AppendQuote(buf.B, stdfmt.Sprintf(s, a...))
return
}
// Write message as-is
stdfmt.Fprintf(buf, s, a...)
}
// format is the object passed among the append___ formatting functions
type format struct {
flags uint8 // 'isKey' and 'verbose' flags
depth uint16 // encoded as 0b(maxDepth)(curDepth)
buf *bytes.Buffer // out buffer
2021-11-27 15:26:58 +01:00
}
const (
// flag bit constants
isKeyBit = uint8(1) << 0
vboseBit = uint8(1) << 1
)
// AtMaxDepth returns whether format is currently at max depth.
func (f format) AtMaxDepth() bool {
return uint8(f.depth) >= uint8(f.depth>>8)
}
// IsKey returns whether the isKey flag is set.
func (f format) IsKey() bool {
return (f.flags & isKeyBit) != 0
2021-11-27 15:26:58 +01:00
}
// Verbose returns whether the verbose flag is set.
func (f format) Verbose() bool {
return (f.flags & vboseBit) != 0
}
// SetIsKey returns format instance with the isKey bit set to value.
func (f format) SetIsKey(is bool) format {
flags := f.flags
if is {
flags |= isKeyBit
} else {
flags &= ^isKeyBit
}
2021-11-27 15:26:58 +01:00
return format{
flags: flags,
2021-11-27 15:26:58 +01:00
depth: f.depth,
buf: f.buf,
}
}
// IncrDepth returns format instance with depth incremented.
2021-11-27 15:26:58 +01:00
func (f format) IncrDepth() format {
return format{
flags: f.flags,
depth: (f.depth & 0b1111111100000000) | uint16(uint8(f.depth)+1),
2021-11-27 15:26:58 +01:00
buf: f.buf,
}
}
// appendNilType writes nil to buf, type included if verbose.
func appendNilType(fmt format, t string) {
if fmt.Verbose() {
fmt.buf.WriteByte('(')
fmt.buf.WriteString(t)
fmt.buf.WriteString(`)(nil)`)
} else {
fmt.buf.WriteString(`nil`)
}
}
// appendNilFace writes nil to buf, type included if verbose.
func appendNilIface(fmt format, i interface{}) {
if fmt.Verbose() {
fmt.buf.WriteByte('(')
fmt.buf.WriteString(reflect.TypeOf(i).String())
fmt.buf.WriteString(`)(nil)`)
} else {
fmt.buf.WriteString(`nil`)
}
}
// appendNilRValue writes nil to buf, type included if verbose.
func appendNilRValue(fmt format, v reflect.Value) {
if fmt.Verbose() {
fmt.buf.WriteByte('(')
fmt.buf.WriteString(v.Type().String())
fmt.buf.WriteString(`)(nil)`)
} else {
fmt.buf.WriteString(`nil`)
}
}
2021-11-27 15:26:58 +01:00
// appendByte writes a single byte to buf
func appendByte(fmt format, b byte) {
fmt.buf.WriteByte(b)
}
// appendBytes writes a quoted byte slice to buf
func appendBytes(fmt format, b []byte) {
if !fmt.IsKey() && b == nil {
2021-11-27 15:26:58 +01:00
// Values CAN be nil formatted
appendNilType(fmt, `[]byte`)
} else {
appendString(fmt, bytes.BytesToString(b))
}
}
// appendString writes an escaped, double-quoted string to buf
func appendString(fmt format, s string) {
if !fmt.IsKey() || !strconv.CanBackquote(s) {
// All non-keys and multiline keys get quoted + escaped
fmt.buf.B = strconv.AppendQuote(fmt.buf.B, s)
return
} else if containsSpaceOrTab(s) {
// Key containing spaces/tabs, quote this
fmt.buf.WriteByte('"')
fmt.buf.WriteString(s)
fmt.buf.WriteByte('"')
return
2021-11-27 15:26:58 +01:00
}
// Safe to leave unquoted
fmt.buf.WriteString(s)
}
// appendStringSlice writes a slice of strings to buf
func appendStringSlice(fmt format, s []string) {
// Check for nil slice
if s == nil {
appendNilType(fmt, `[]string`)
return
}
fmt.buf.WriteByte('[')
// Write elements
for _, s := range s {
appendString(fmt.SetIsKey(false), s)
2021-11-27 15:26:58 +01:00
fmt.buf.WriteByte(',')
}
// Drop last comma
if len(s) > 0 {
fmt.buf.Truncate(1)
}
fmt.buf.WriteByte(']')
}
// appendBool writes a formatted bool to buf
func appendBool(fmt format, b bool) {
fmt.buf.B = strconv.AppendBool(fmt.buf.B, b)
}
// appendBool writes a slice of formatted bools to buf
func appendBoolSlice(fmt format, b []bool) {
// Check for nil slice
if b == nil {
appendNilType(fmt, `[]bool`)
return
}
fmt.buf.WriteByte('[')
// Write elements
for _, b := range b {
appendBool(fmt, b)
fmt.buf.WriteByte(',')
}
// Drop last comma
if len(b) > 0 {
fmt.buf.Truncate(1)
}
fmt.buf.WriteByte(']')
}
// appendInt writes a formatted int to buf
func appendInt(fmt format, i int64) {
fmt.buf.B = strconv.AppendInt(fmt.buf.B, i, 10)
}
// appendIntSlice writes a slice of formatted int to buf
func appendIntSlice(fmt format, i []int) {
// Check for nil slice
if i == nil {
appendNilType(fmt, `[]int`)
return
}
fmt.buf.WriteByte('[')
// Write elements
for _, i := range i {
appendInt(fmt, int64(i))
fmt.buf.WriteByte(',')
}
// Drop last comma
if len(i) > 0 {
fmt.buf.Truncate(1)
}
fmt.buf.WriteByte(']')
}
// appendUint writes a formatted uint to buf
func appendUint(fmt format, u uint64) {
fmt.buf.B = strconv.AppendUint(fmt.buf.B, u, 10)
}
// appendUintSlice writes a slice of formatted uint to buf
func appendUintSlice(fmt format, u []uint) {
// Check for nil slice
if u == nil {
appendNilType(fmt, `[]uint`)
return
}
fmt.buf.WriteByte('[')
// Write elements
for _, u := range u {
appendUint(fmt, uint64(u))
fmt.buf.WriteByte(',')
}
// Drop last comma
if len(u) > 0 {
fmt.buf.Truncate(1)
}
fmt.buf.WriteByte(']')
}
// appendFloat writes a formatted float to buf
func appendFloat(fmt format, f float64) {
fmt.buf.B = strconv.AppendFloat(fmt.buf.B, f, 'G', -1, 64)
}
// appendFloatSlice writes a slice formatted floats to buf
func appendFloatSlice(fmt format, f []float64) {
// Check for nil slice
if f == nil {
appendNilType(fmt, `[]float64`)
return
}
fmt.buf.WriteByte('[')
// Write elements
for _, f := range f {
appendFloat(fmt, f)
fmt.buf.WriteByte(',')
}
// Drop last comma
if len(f) > 0 {
fmt.buf.Truncate(1)
}
fmt.buf.WriteByte(']')
}
// appendTime writes a formatted, quoted time string to buf
func appendTime(fmt format, t time.Time) {
appendString(fmt.SetIsKey(true), t.Format(time.RFC1123))
2021-11-27 15:26:58 +01:00
}
// appendTimeSlice writes a slice of formatted time strings to buf
func appendTimeSlice(fmt format, t []time.Time) {
// Check for nil slice
if t == nil {
appendNilType(fmt, `[]time.Time`)
return
}
fmt.buf.WriteByte('[')
// Write elements
for _, t := range t {
appendString(fmt.SetIsKey(true), t.Format(time.RFC1123))
2021-11-27 15:26:58 +01:00
fmt.buf.WriteByte(',')
}
// Drop last comma
if len(t) > 0 {
fmt.buf.Truncate(1)
}
fmt.buf.WriteByte(']')
}
// appendDuration writes a formatted, quoted duration string to buf
func appendDuration(fmt format, d time.Duration) {
appendString(fmt.SetIsKey(true), d.String())
2021-11-27 15:26:58 +01:00
}
// appendDurationSlice writes a slice of formatted, quoted duration strings to buf
func appendDurationSlice(fmt format, d []time.Duration) {
// Check for nil slice
if d == nil {
appendNilType(fmt, `[]time.Duration`)
return
}
fmt.buf.WriteByte('[')
// Write elements
for _, d := range d {
appendString(fmt.SetIsKey(true), d.String())
2021-11-27 15:26:58 +01:00
fmt.buf.WriteByte(',')
}
// Drop last comma
if len(d) > 0 {
fmt.buf.Truncate(1)
}
fmt.buf.WriteByte(']')
}
// appendComplex writes a formatted complex128 to buf
func appendComplex(fmt format, c complex128) {
appendFloat(fmt, real(c))
fmt.buf.WriteByte('+')
appendFloat(fmt, imag(c))
fmt.buf.WriteByte('i')
}
// appendComplexSlice writes a slice of formatted complex128s to buf
func appendComplexSlice(fmt format, c []complex128) {
// Check for nil slice
if c == nil {
appendNilType(fmt, `[]complex128`)
return
}
fmt.buf.WriteByte('[')
// Write elements
for _, c := range c {
appendComplex(fmt, c)
fmt.buf.WriteByte(',')
}
// Drop last comma
if len(c) > 0 {
fmt.buf.Truncate(1)
}
fmt.buf.WriteByte(']')
}
// notNil will safely check if 'v' is nil without dealing with weird Go interface nil bullshit.
func notNil(i interface{}) bool {
// cast to get fat pointer
e := *(*struct {
typeOf unsafe.Pointer // ignored
valueOf unsafe.Pointer
})(unsafe.Pointer(&i))
// check if value part is nil
return (e.valueOf != nil)
}
// appendIfaceOrRValueNext performs appendIfaceOrRValue checking + incr depth
func appendIfaceOrRValueNext(fmt format, i interface{}) {
2021-11-27 15:26:58 +01:00
// Check we haven't hit max
if fmt.AtMaxDepth() {
2021-11-27 15:26:58 +01:00
fmt.buf.WriteString("...")
return
}
// Incr the depth
fmt = fmt.IncrDepth()
// Make actual call
appendIfaceOrRValue(fmt, i)
}
// appendIfaceOrReflectValue will attempt to append as interface, falling back to reflection
func appendIfaceOrRValue(fmt format, i interface{}) {
2021-11-27 15:26:58 +01:00
if !appendIface(fmt, i) {
appendRValue(fmt, reflect.ValueOf(i))
}
}
// appendValueOrIfaceNext performs appendRValueOrIface checking + incr depth
func appendRValueOrIfaceNext(fmt format, v reflect.Value) {
2021-11-27 15:26:58 +01:00
// Check we haven't hit max
if fmt.AtMaxDepth() {
2021-11-27 15:26:58 +01:00
fmt.buf.WriteString("...")
return
}
// Incr the depth
fmt = fmt.IncrDepth()
// Make actual call
appendRValueOrIface(fmt, v)
}
// appendRValueOrIface will attempt to interface the reflect.Value, falling back to using this directly
func appendRValueOrIface(fmt format, v reflect.Value) {
2021-11-27 15:26:58 +01:00
if !v.CanInterface() || !appendIface(fmt, v.Interface()) {
appendRValue(fmt, v)
}
}
// appendIface parses and writes a formatted interface value to buf
func appendIface(fmt format, i interface{}) bool {
switch i := i.(type) {
case nil:
fmt.buf.WriteString(`nil`)
2021-11-27 15:26:58 +01:00
case byte:
appendByte(fmt, i)
case []byte:
appendBytes(fmt, i)
case string:
appendString(fmt, i)
case []string:
appendStringSlice(fmt, i)
case int:
appendInt(fmt, int64(i))
case int8:
appendInt(fmt, int64(i))
case int16:
appendInt(fmt, int64(i))
case int32:
appendInt(fmt, int64(i))
case int64:
appendInt(fmt, i)
case []int:
appendIntSlice(fmt, i)
case uint:
appendUint(fmt, uint64(i))
case uint16:
appendUint(fmt, uint64(i))
case uint32:
appendUint(fmt, uint64(i))
case uint64:
appendUint(fmt, i)
case []uint:
appendUintSlice(fmt, i)
case float32:
appendFloat(fmt, float64(i))
case float64:
appendFloat(fmt, i)
case []float64:
appendFloatSlice(fmt, i)
case bool:
appendBool(fmt, i)
case []bool:
appendBoolSlice(fmt, i)
case time.Time:
appendTime(fmt, i)
case []time.Time:
appendTimeSlice(fmt, i)
case time.Duration:
appendDuration(fmt, i)
case []time.Duration:
appendDurationSlice(fmt, i)
case complex64:
appendComplex(fmt, complex128(i))
case complex128:
appendComplex(fmt, i)
case []complex128:
appendComplexSlice(fmt, i)
case map[string]interface{}:
appendIfaceMap(fmt, i)
case error:
if notNil(i) /* use safer nil check */ {
appendString(fmt, i.Error())
} else {
appendNilIface(fmt, i)
}
case Formattable:
switch {
// catch nil case first
case !notNil(i):
appendNilIface(fmt, i)
// not permitted
case fmt.Verbose():
return false
// use func
default:
fmt.buf.B = i.AppendFormat(fmt.buf.B)
2021-11-27 15:26:58 +01:00
}
case stdfmt.Stringer:
switch {
// catch nil case first
case !notNil(i):
appendNilIface(fmt, i)
// not permitted
case fmt.Verbose():
return false
// use func
default:
2021-11-27 15:26:58 +01:00
appendString(fmt, i.String())
}
default:
return false // could not handle
}
return true
}
// appendReflectValue will safely append a reflected value
func appendRValue(fmt format, v reflect.Value) {
switch v.Kind() {
case reflect.Float32, reflect.Float64:
appendFloat(fmt, v.Float())
case reflect.Int, reflect.Int8, reflect.Int16, reflect.Int32, reflect.Int64:
appendInt(fmt, v.Int())
case reflect.Uint8:
appendByte(fmt, uint8(v.Uint()))
case reflect.Uint, reflect.Uint16, reflect.Uint32, reflect.Uint64:
appendUint(fmt, v.Uint())
case reflect.Bool:
appendBool(fmt, v.Bool())
case reflect.Array:
appendArrayType(fmt, v)
case reflect.Slice:
appendSliceType(fmt, v)
case reflect.Map:
appendMapType(fmt, v)
case reflect.Struct:
appendStructType(fmt, v)
case reflect.Ptr:
if v.IsNil() {
appendNilRValue(fmt, v)
} else {
appendRValue(fmt, v.Elem())
}
case reflect.UnsafePointer:
fmt.buf.WriteString("(unsafe.Pointer)")
fmt.buf.WriteByte('(')
if u := v.Pointer(); u != 0 {
fmt.buf.WriteString("0x")
fmt.buf.B = strconv.AppendUint(fmt.buf.B, uint64(u), 16)
} else {
fmt.buf.WriteString(`nil`)
2021-11-27 15:26:58 +01:00
}
fmt.buf.WriteByte(')')
case reflect.Uintptr:
fmt.buf.WriteString("(uintptr)")
fmt.buf.WriteByte('(')
if u := v.Uint(); u != 0 {
fmt.buf.WriteString("0x")
fmt.buf.B = strconv.AppendUint(fmt.buf.B, u, 16)
} else {
fmt.buf.WriteString(`nil`)
2021-11-27 15:26:58 +01:00
}
fmt.buf.WriteByte(')')
case reflect.String:
appendString(fmt, v.String())
case reflect.Complex64, reflect.Complex128:
appendComplex(fmt, v.Complex())
case reflect.Func, reflect.Chan, reflect.Interface:
if v.IsNil() {
appendNilRValue(fmt, v)
} else {
fmt.buf.WriteString(v.String())
}
default:
fmt.buf.WriteString(v.String())
}
}
// appendIfaceMap writes a map of key-value pairs (as a set of fields) to buf
func appendIfaceMap(fmt format, v map[string]interface{}) {
// Catch nil map
if v == nil {
appendNilType(fmt, `map[string]interface{}`)
return
}
fmt.buf.WriteByte('{')
// Write map pairs!
for key, value := range v {
appendString(fmt.SetIsKey(true), key)
2021-11-27 15:26:58 +01:00
fmt.buf.WriteByte('=')
appendIfaceOrRValueNext(fmt.SetIsKey(false), value)
2021-11-27 15:26:58 +01:00
fmt.buf.WriteByte(' ')
}
// Drop last space
if len(v) > 0 {
fmt.buf.Truncate(1)
}
fmt.buf.WriteByte('}')
}
// appendArrayType writes an array of unknown type (parsed by reflection) to buf, unlike appendSliceType does NOT catch nil slice
func appendArrayType(fmt format, v reflect.Value) {
// get no. elements
n := v.Len()
fmt.buf.WriteByte('[')
// Write values
for i := 0; i < n; i++ {
appendRValueOrIfaceNext(fmt.SetIsKey(false), v.Index(i))
2021-11-27 15:26:58 +01:00
fmt.buf.WriteByte(',')
}
// Drop last comma
if n > 0 {
fmt.buf.Truncate(1)
}
fmt.buf.WriteByte(']')
}
// appendSliceType writes a slice of unknown type (parsed by reflection) to buf
func appendSliceType(fmt format, v reflect.Value) {
if v.IsNil() {
appendNilRValue(fmt, v)
} else {
appendArrayType(fmt, v)
}
}
// appendMapType writes a map of unknown types (parsed by reflection) to buf
func appendMapType(fmt format, v reflect.Value) {
// Catch nil map
if v.IsNil() {
appendNilRValue(fmt, v)
return
}
// Get a map iterator
r := v.MapRange()
n := v.Len()
fmt.buf.WriteByte('{')
// Iterate pairs
for r.Next() {
appendRValueOrIfaceNext(fmt.SetIsKey(true), r.Key())
2021-11-27 15:26:58 +01:00
fmt.buf.WriteByte('=')
appendRValueOrIfaceNext(fmt.SetIsKey(false), r.Value())
2021-11-27 15:26:58 +01:00
fmt.buf.WriteByte(' ')
}
// Drop last space
if n > 0 {
fmt.buf.Truncate(1)
}
fmt.buf.WriteByte('}')
}
// appendStructType writes a struct (as a set of key-value fields) to buf
func appendStructType(fmt format, v reflect.Value) {
// Get value type & no. fields
t := v.Type()
n := v.NumField()
w := 0
// If verbose, append the type
2021-11-27 15:26:58 +01:00
fmt.buf.WriteByte('{')
2021-11-27 15:26:58 +01:00
// Iterate fields
for i := 0; i < n; i++ {
vfield := v.Field(i)
name := t.Field(i).Name
// Append field name
appendString(fmt.SetIsKey(true), name)
fmt.buf.WriteByte('=')
2021-11-27 15:26:58 +01:00
if !vfield.CanInterface() {
// This is an unexported field
appendRValue(fmt.SetIsKey(false), vfield)
2021-11-27 15:26:58 +01:00
} else {
// This is an exported field!
appendRValueOrIfaceNext(fmt.SetIsKey(false), vfield)
2021-11-27 15:26:58 +01:00
}
// Iter written count
fmt.buf.WriteByte(' ')
w++
}
// Drop last space
if w > 0 {
fmt.buf.Truncate(1)
}
fmt.buf.WriteByte('}')
}
// containsSpaceOrTab checks if "s" contains space or tabs
func containsSpaceOrTab(s string) bool {
for _, r := range s {
if r == ' ' || r == '\t' {
return true
}
}
return false
}